Publications
These publications are written or co-authored by Central Midwest Water Science Center personnel in conjuction with their work at the USGS and other government agencies. They include USGS reports, journal articles, conference proceedings, and published abstracts that are available in the USGS Publications Warehouse.
Filter Total Items: 932
Central Midwest Water Science Center— Harmful Algal Blooms team
The U.S. Geological Survey (USGS) Central Midwest Water Science Center (CMWSC) includes three States—Illinois, Iowa, and Missouri. USGS water science centers across the Nation provide information on water resources including streamflow, water use, water availability, and the quality of surface water and groundwater (https://www.usgs.gov/mission-areas/water-resources).The USGS CMWSC Harmful Algal B
Authors
Katherine M. Summers, Heather M. Krempa, Jessica D. Garrett
Estimated daily mean streamflow in Iowa using the Flow-Duration Curve Transfer Method StreamStats application
The U.S. Geological Survey (USGS) operates many streamgages throughout the country that provide historical and real-time daily streamflow information. Accurate estimates of daily streamflow and the percentage of time that a certain volume of streamflow occurs or is exceeded in a stream is crucial information for structure design and other activities conducted by federal, state, and local officials
Authors
Mackenzie K. Marti, Harper N. Wavra, Andrea Medenblik
Quality of surface water in Missouri, water year 2020
The U.S. Geological Survey, in cooperation with the Missouri Department of Natural Resources, monitors stations designed for the Ambient Water-Quality Monitoring Network, a collection of stations that monitor streams and springs in Missouri. During water year 2020 (October 1, 2019, through September 30, 2020), the U.S. Geological Survey collected water-quality data at 72 stations: 70 Ambient Water
Authors
Camille E. Buckley
Uncertainty analysis of index-velocity meters and discharge computations at the Chicago Sanitary and Ship Canal near Lemont, Illinois, water years 2006–16
Monitoring discharge in the Chicago Sanitary and Ship Canal is critical for the accounting done by the U.S. Army Corps of Engineers of the diversion of water from Lake Michigan to the Mississippi River Basin by the State of Illinois. The primary streamgage used for this discharge monitoring, the Chicago Sanitary and Ship Canal near Lemont, Illinois (U.S. Geological Survey station 05536890), is ope
Authors
Thomas M. Over, Marian Muste, James J. Duncker, Heng-Wei Tsai, P. Ryan Jackson, Kevin K. Johnson, Frank L. Engel, Crystal D. Prater
FluOil: A novel tool for modeling the transport of oil-particle aggregates in inland waterways
Spilled oil in inland waterways can aggregate with mineral and organic particles to form oil-particle aggregates (OPAs). OPAs can be transported in suspension or deposited to the bed. Modeling the fate and transport of OPAs can provide useful information for making mitigation decisions. A novel open-source tool, FluOil, is developed to predict where OPAs may deposit and when they arrive in affecte
Authors
Yilan Li, Zhenduo Zhu, David T. Soong, Hamed Khorasani, Shu Wang, Faith A. Fitzpatrick, Marcelo H. Garcia
Pharmaceutical pollution of the world’s rivers
Environmental exposure to active pharmaceutical ingredients (APIs) can have negative effects on the health of ecosystems and humans. While numerous studies have monitored APIs in rivers, these employ different analytical methods, measure different APIs, and have ignored many of the countries of the world. This makes it difficult to quantify the scale of the problem from a global perspective. Furth
Authors
John L. Wilkinson, Alistair B. A. Boxall, Dana W. Kolpin, Kenneth M. Y. Leung, Racliffe W. S. Lai, Cristóbal Galbán-Malagón, Aiko D. Adell, J. Mondon, M. Metian, R. Marchant, Alejandra Bouzas-Monroy, Aida Cuni-Sanchez, A. Coors, Carriquiriborde P., M. Rojo, C. Gordon, Magdalena Cara, M. Moermond, Thais Luarte, V. Petrosyan, Yekaterina Perikhanyan, Clare S. Mahon, Christopher J. McGurk, T. Hofmann, T. Kormoker, V. Iniguez, J. Guzman-Otazo, Jean L. Tavares, Francisco Gildasio de Figueiredo, Maria T. P. Razzolini, V. Dougnon, G. Gbaguidi, Oumar Traoré, Jules M. Blais, Linda E. Kimpe, M. Wong, D. Wong, R. Ntchantcho, J. Pizarro, Guang-Guo Ying, Chang-Er Chen, Martha Páez, Jina Martínez-Lara, Jean-Paul Otamonga, John Poté, Suspense A. Ifo, Penelope J. Wilson, Silvia Echeverría-Sáenz, N. Udikovic-Kolic, M. Milakovic, D. Fatta-Kassinos, L. Ioannou-Ttofa, Vladimíra Belušová, J. Vymazal, María Cárdenas-Bustamante, Bayable A. Kassa, J Garric, A. Chaumot, Peter Gibba, I. Kunchulia, Seidensticker S., G. Lyberatos, Halldór P. Halldórsson, Molly Melling, T. Shashidhar, Manisha Lamba, A. Nastiti, A. Supriatin, N. Pourang, A. Abedini, Omar Abdullah, Salem S. Gharbia, F. Pilla, B. Chefetz, T. Topaz, Koffi Marcellin Yao, B. Aubakirova, R. Beisenova, L. Olaka, Jemimah Mulu, P. Chatanga, V. Ntuli, Nathaniel T. Blama, S. Sherif, Ahmad Zaharin Aris, Ley Juen Looi, M. Niang, Seydou T. Traore, Rik Oldenkamp, O. Ogunbanwo, M. Ashfaq, M. Iqbal, Z. Abdeen, A. O'Dea, Jorge Manuel Morales-Saldaña, M. Custodio, H. de la Cruz, I. Navarrete, F. Carvalho, Alhaji B. Gogra, Bashiru M. Koroma, Vesna Cerkvenik-Flajs, Mitja Gombać, M. Thwala, K. Choi, H. Kang, John L. Celestino Ladu, A. Rico, P. Amerashinghe, A. Sobek, G. Horlitz, Armin K. Zenker, Alex C. King, Jheng-Jie Jiang, Rebecca Kariuki, M. Tumbo, U. Tezel, Turgut T. Onay, Julius B. Lejju, Y. Vystavna, Y. Vergeles, H. Heinzen, Andrés Pérez-Parada, Douglas B. Sims, M. Figy, David Good, C. Teta
Real-time telemetry and multi-state modeling
This project will result in real-time data and other invasive carp movement information to inform realtime management decisions and refine the SEICarP model. FY 2022 funding will produce final transition probability estimates from the newly-developed Bayesian multi-state model, continue the maintenance of real-time telemetry to inform contingency actions, and produce a study plan to refine fishing
Authors
Marybeth K. Brey, Brent C. Knights, P. Ryan Jackson, Jessica C. Stanton, Douglas Appel, James J. Duncker, Andrea K. Fritts
Floods of June 21–July 1, 2018, in the Floyd River and Little Sioux River Basins, northwestern Iowa
The Floyd River and Little Sioux River Basins in northwestern Iowa flooded on June 21–July 1, 2018, after sustained rainfall on June 14–27, 2018. Within the Floyd River Basin, rainfall totals from June 14 to 21 preceding flooding were 3.01 inches (in.) at Le Mars, 4.50 in. at Orange City, and 7.44 in. at Sheldon. Within the Little Sioux River Basin, rainfall amounts for the 2-week period from June
Authors
Padraic S. O'Shea, Jordan L. Wilson, Jared C. Vegrzyn, Kimberlee K. Barnes
The role of hydraulic and geomorphic complexity in predicting invasive carp spawning potential: St. Croix River, Minnesota and Wisconsin, United States
Since they were first introduced to the United States more than 50 years ago, invasive carp have rapidly colonized rivers of the Mississippi River Basin, with detrimental effects on native aquatic species. Their continued range expansion, and potential for subsequent invasion of the Great Lakes, has led to increased concern for the susceptibility of as-yet uncompromised lotic and lentic systems in
Authors
Alan Kasprak, P. Ryan Jackson, Evan M. Lindroth, J. William Lund, Jeffrey R. Ziegeweid
Bathymetric and velocimetric surveys at highway bridges crossing the Missouri River near Kansas City, Missouri, August 2019, August 2020, and October 2020
Bathymetric and velocimetric data were collected by the U.S. Geological Survey, in cooperation with the Missouri Department of Transportation, near 9 bridges at 8 highway crossings of the Missouri River near Kansas City, Missouri, on August 13–14, 2019. A multibeam echosounder mapping system was used to obtain channel-bed elevations for river reaches about 1,550 to 1,660 feet longitudinally and ge
Authors
Richard J. Huizinga
A steady-state groundwater flow model for the Des Moines River alluvial aquifer near Prospect Park, Des Moines, Iowa
The Des Moines River alluvial aquifer is an important source of water for Des Moines Water Works, the municipal water utility that provides residential and commercial water resources to the residents of Des Moines, Iowa, and surrounding municipalities. As an initial step in developing a better understanding of the groundwater resources of the Des Moines River alluvial aquifer, the U.S. Geological
Authors
Kendall M. FitzGerald, Wonsook S. Ha, Adel E. Haj, Lance R. Gruhn, Emilia L. Bristow, Jared R. Weber
Continuous monitoring of nutrient and sediment loads from the Des Plaines River at Route 53 at Joliet, Illinois, water years 2018–20
The Des Plaines River in southern Wisconsin and northern Illinois is the principal conduit for the discharge of wastewater effluent and stormwater runoff from the greater Chicago metropolitan area. In November 2017, the U.S. Geological Survey, in cooperation with the Metropolitan Water Reclamation District of Greater Chicago, installed a continuous monitoring station to measure water quality and s
Authors
Colin S. Peake, Timothy O. Hodson